System and method for correlating biometric trends with a related temporal event

ABSTRACT

Systems and methods for correlating biometric trends with a related temporal event are disclosed. A preferred embodiment utilizes an implantable medical device comprising at least one sensor in electronic communication with a patient management system adapted to temporally analyze and correlate biometric data. Some embodiments of a system disclosed herein also can be configured as an Advanced Patient Management system that helps better monitor, predict and manage chronic diseases.

TECHNICAL FIELD

The present device relates generally to a Patient Management System andparticularly, but not by way of limitation, to such a system that isadapted to correlate biometric information or trends to a specifictemporal event to provide a snapshot of patient health.

BACKGROUND

Management of patients with chronic disease consumes a significantproportion of the total health care expenditure in the United States.Many of these diseases are widely prevalent and have significant annualincidences as well. Heart failure prevalence alone is estimated at over5.5 million patients in 2000 with incidence rates of over half a millionadditional patients annually, resulting in a total health care burden inexcess of $20 billion. Heart failure, like many other chronic diseasessuch as asthma, chronic obstructive pulmonary disease (“COPD”), chronicpain, and epilepsy is event driven, where acute episodes of diseaseresult in hospitalization. In addition to causing considerable physicaland emotional trauma to the patient and family, event drivenhospitalizations consume a majority of the total health care expenditureallocated to the treatment of heart failure.

An interesting fact about the treatment of acute episodes of disease isthat hospitalization and treatment occurs after the acute event hashappened. However, most Heart Failure patients exhibit priornon-traumatic symptoms, such as steady weight gain, in the weeks or daysprior to the acute episode. If the physician is made aware of thesesymptoms, it is possible to intervene before the event, at substantiallyless cost to the patient and the health care system.

Intervention before the event is usually in the form of a re-titrationthe patient's drug cocktail, reinforcement of the patient's compliancewith the prescribed drug regimen, or acute changes to the patient's dietand exercise. Such intervention is usually effective in preventing theacute episode and thus avoiding hospitalization. NYHA Class III and lateClass II HF patients often have acute episodes three or four timesannually, each episode resulting in hospital stays of three or fourdays.

However, many acute episodes of disease can be predicted by analyzingbiometric trends. Predictive accuracy may be improved by analyzing suchbiometric trends in view of clinically derived algorithms. In practice,the algorithmic analysis of contemporaneous biometric information ordata in reference to a temporal event can report and assist in theidentification of a state of patient health or disease progression. Yet,data collection and rapid analysis is a limiting factor in effectivelyusing clinical algorithms to report such states of patient health.

Thus, for these and other reasons, there is a need for a system andmethod for efficiently and effectively reporting a state of patienthealth or disease progression by correlating biometric information ortrends with a related temporal event and alerting the patient orphysician of the state of patient health or disease progression.

SUMMARY

According to one aspect of the invention, there is provided a system andmethod for correlating sensed biometric information or trends usingclinically derived algorithms to report a state of patient health. Thereport of patient health enables a patient or clinician to examine andfurther analyze a state of health or disease progression in view of atemporal event that may confer additional clinical meaning to orunderstanding of the reported state of health. The system also maydeliver therapy when configured as an implantable medical device.

In one embodiment, the system comprises at least one sensor to sensebiometric data, an interactive database, an analysis module to analyzethe biometric data, a correlation module to correlate the biometric datawith a temporal event, an electronic transmission module to transmit theoutput to an interactive communications network, a transformation moduleto transform transmitted output to a recognizable clinical result, and adisplay module to display the transformed output. By way of non-limitingexample only, a temporal event may comprise a change in patientmedication, a heart attack, physical injury, dates of personal interest,or other events.

In another embodiment, the interactive communications network comprisesa sensor implanted within a patient, a host in communication with thesensor comprising means to input biometric and/or environmental data toan interactive database, an analysis module to analyze biometric data,and a delivery module that communicates the analyzed data in the form ofan identified state of patient health via the communications network.

In yet another embodiment, the system comprises a plurality ofinteractive databases adapted to store historical and patient populationdata. In this embodiment, the system is adapted to provide therapy to apatient through a specially adapted implantable medical device based onthe identified state of patient health. The implantable medical devicemay also comprise a sensor. The sensor can be internal or external.External sensors may be adapted to record environmental data. The systemalso may comprise a diagnostic module for diagnosing the performance ofthe sensor and the interactive communications network.

In a preferred embodiment of the system and method for correlatingbiometric trends with a related temporal event, the identified state ofpatient health is made by analyzing biometric data in view of clinicallyderived algorithms and monitoring the success of previousidentifications of a state of patient health. If warranted by theidentified state of patient health, the display module displays aconfigurable alert for action in the form of a clinically relevantgraphic or an audible signal.

The various embodiments described above are provided by way ofillustration only and should not be construed to limit the invention.Those skilled in the art will readily recognize various modificationsand changes that may be made to the present invention without followingthe example embodiments and applications illustrated and describedherein, and without departing from the true spirit and scope of thepresent invention, which is set forth in the following claims.

BRIEF DESCRIPTION OF THE DRAWINGS

In the drawings, which are not necessarily drawn to scale, like numeralsdescribe substantially similar components throughout the several views.Like numerals having different letter suffixes represent differentinstances of substantially similar components. The drawings illustrategenerally, by way of example, but not by way of limitation, variousembodiments discussed in the present document.

FIG. 1 is a schematic/block diagram illustrating generally, among otherthings, one embodiment of the system and method for correlatingbiometric trends with a related temporal event.

FIG. 2 is a schematic/block diagram illustrating generally, among otherthings, another embodiment of the system and method for correlatingbiometric trends with a related temporal event comprising an interactivedatabase and analysis module.

FIG. 3 is a schematic/block diagram illustrating generally, among otherthings, another embodiment of the system and method for correlatingbiometric trends with a related temporal event of the present inventioncomprising a correlation module as a component of an analysis module inelectronic communication with an interactive database to report a stateof patient health.

FIG. 4 is a schematic/block diagram illustrating generally, among otherthings, another embodiment of the system and method for correlatingbiometric trends with a related temporal event comprising an AdvancedPatient Management system in electronic communication with thecomponents of the system.

DETAILED DESCRIPTION

In the following detailed description, reference is made to theaccompanying drawings that form a part hereof, and in which is shown byway of illustration specific embodiments or examples. These embodimentsmay be combined, other embodiments may be utilized, and structural,logical, and electrical changes may be made without departing from thespirit and scope of the present invention. The following detaileddescription is, therefore, not to be taken in a limiting sense, and thescope of the present invention is defined by the appended claims andtheir equivalents.

The present system and method are described with respect to a system andmethod that is adapted to report a state of patient health bycorrelating biometric data or trends with a related temporal event. Inthis way, the system can provide appropriate therapy to a patient in itsembodiment as an implantable medical device or provide a clinician withretrospective environmental and/or perceptual data in time coincidencewith objective implanted sensor data. The term “biometric” generallyrefers to the measurement of a living, human characteristic. The term“Advanced Patient Management” refers to the process of creating andcollecting patient specific information, storing and collating theinformation, and generating actionable recommendations to enable thepredictive management of patients with chronic disease. The term“temporal event” refers to events in a patient's environment that may ormay not cause a health state change. The term “correlation” refers totime coincident events that have been analyzed for causation and healthconsequence outcome.

FIG. 1 is a schematic/block diagram illustrating generally oneembodiment of a system and method for correlating biometric trends witha related temporal event to report a state of patient health. The system100 further comprises at least one sensor 101 in electroniccommunication 103 with a patient management system 102 to allowautomatic transmission of sensed biometric data to the patientmanagement system 102. Such electronic communication may include wiredand/or wireless communication technologies.

FIG. 2 is a schematic/block diagram illustrating generally anotherembodiment of the system and method for correlating biometric trendswith a related temporal event comprising external means 200 to enterbiometric 201 a and/or environmental data 202, 201 c into at least oneinteractive database 201 for analysis by an analysis module 203.Environmental data may include temperature, atmospheric pressure,humidity, stress, drug change, diet change, emotional state and/or otherobjective or subjective data. The database 201 stores data from internaland/or external sensors 204, medical records 201 b of a patient, andenvironmental data 202, 201 c. The analysis module 203 identifies astate of patient health based on the information stored in the database201.

FIG. 3 is a schematic/block diagram illustrating generally an embodimentof a correlation module 300 of the system and method for correlatingbiometric trends with a related temporal event. In addition to at leastone internal sensor 204 to sense biometric data and at least oneinteractive database 201, the system further comprises a correlationmodule 300 to correlate the biometric data 201 a against reference datato create a biometric data set. The reference data may includehistorical/stored patient data 201 b, environmental data 201 c andpatient population data 201 d. Historical patient data may comprise thepatient's medical history as manually or electronically entered into thehistorical/stored patient database 201 b. Correlation module 300 maycomprise a component of analysis module 203. Biometric 201 a andreference data sets 201 b, 201 c and 201 d are transmitted tocorrelation module 300. Correlation module 300 then correlates thebiometric data set with a temporal event to create an output thatidentifies a state of patient health 301.

FIG. 4 is a schematic/block diagram illustrating generally an embodimentof sensors 204 implanted within a patient 400 of the system and methodfor correlating biometric trends with a related temporal event. Thesystem further comprises an electronic transmission module 401 and aninteractive communications network 402. In this embodiment, thecorrelated output 301 is transmitted via the electronic transmissionmodule 401 to an interactive communications network 402. The output 301may be transformed by a transformation module 403 and displayed to aclinician or patient 405 via a display module 404 in ahuman-recognizable format.

In another embodiment as illustrated in FIG. 4, the interactivecommunications network 402 is in electronic communication with anAdvanced Patient Management System (“APM”) 408. APM is a system thathelps patients, their physicians and their families to better monitor,predict and manage chronic diseases. In the embodiment shown in FIG. 4,the APM system 408 consists of three primary components: 1) animplantable medical device 204 with sensors adapted to monitor temporalbiometric data, 2) a Data Management System (“DMS”), which in thisembodiment is shown as interactive database 201 and 3) an analyticalcomponent 203 adapted to analyze and correlate data from the DMS. APM isdesigned to support physicians and other clinicians in using a varietyof different devices, patient-specific and non-specific data, along withmedication therapy, to provide the best possible care to patients.Currently, implanted devices often provide only limited sensing,analysis and therapy to patients. APM moves the device from a reactivemode into a predictive one that allows a clinician to use APM to predictpatient health.

In a further embodiment as illustrated in FIG. 4, the interactivedatabase 201 comprises a plurality of interactive databases 201 a, 201b, 201 c, 201 d and 201 e. The plurality of interactive databases areadapted to process and store biometric data 201 a collected from thesensors, store patient data 201 b, environmental data 201 c, patientpopulation data 201 d and medical practice data 201 e. In thisembodiment, therapy is provided to a patient via a specially adaptedimplantable medical device 204 in response to the identified state ofpatient health 301. A sensor 204 a also may be external to a patient 400to record biometric and environmental data in the database 201.

In a yet another embodiment as illustrated in FIG. 4, the identifiedstate of patient health 301 is based on rules of practicing medicine 201e and revised based on monitoring the success of previousidentifications. In this embodiment, the medical practice database 201 ecomprises clinically derived algorithms of biometric data forautomatically reporting a state of patient health 301. The algorithmscan be the result of the extraction, codification and use of collectedexpert knowledge for the analysis or diagnosis of medical conditions.For example, the algorithms can comprise institutional analytical ordiagnostic techniques used in specific clinical settings. By reducingthe analytical or diagnostic methodologies of institutions like theCleveland Clinic, the Mayo Clinic or the Kaiser Permanente system toalgorithmic expression, a patient will enjoy the benefit of the medicalexpertise of a leading medical institution without having to visit theinstitution. The display module 403 is adapted to display a configurablealert for action in the form of a graphical representation 406 of thecorrelated biometric data and temporal event or an audible signal 407.

It is to be understood that the above description is intended to beillustrative, and not restrictive. For example, the above-describedembodiments may be used in combination with each other. Many otherembodiments will be apparent to those of skill in the art upon reviewingthe above description. The scope of the invention should, therefore, bedetermined with reference to the appended claims, along with the fullscope of equivalents to which such claims are entitled. In the appendedclaims, the terms “including,” “includes” and “in which” are used as theplain-English equivalents of the respective terms “comprising,”“comprises” and “wherein.”

1. A method for correlating biometric trends with a related temporalevent, comprising the steps of: a. automatically sensing biometric data,wherein the biometric data is obtained from an implanted medical deviceand stored in at least one interactive database; b. analyzing thebiometric data against a reference data set to create a biometric dataset; c. correlating the biometric data set with a temporal event tocreate an output, wherein the temporal event is an environmental eventthat is capable of causing a health state change in a patient, andwherein the environmental event is selected from a group of eventsconsisting of: a change in temperature, a change in atmosphericpressure, a change in humidity, a change in stress, a change in patientmedication, a change in patient diet, and a change in patient emotionalstate; d. electronically transmitting the output to at least onecommunications device in communication with an interactivecommunications network; e. transforming the output to ahuman-recognizable format; and f. displaying the transformed output,wherein the transformed output comprises the biometric data setdisplayed with the corresponding temporal event.
 2. The method of claim1, wherein the step of sensing biometric data comprises the further stepof sensing the data with at least one sensor.
 3. The method of claim 2,wherein the step of sensing biometric data with at least one sensorcomprises the further step of sensing the data with a sensor external toa patient.
 4. The method of claim 2, wherein the step of sensingbiometric data with at least one sensor comprises the further step ofsensing the data with a sensor internal to a patient.
 5. The method ofclaim 1, wherein the step of analyzing biometric data comprises thefurther step of analyzing the data using clinically derived algorithms.6. The method of claim 1, wherein the step of electronicallytransmitting the output to at least one communications device comprisesthe further step of transmitting the output using wireless transmissiontechnologies.
 7. The method of claim 1, wherein the step ofelectronically transmitting the output to at least one communicationsdevice comprises the further step of transmitting the output using wiredtransmission technologies.
 8. The method of claim 1, wherein the step ofdisplaying the transformed output comprises the further step ofdisplaying the output to a clinician in a human-recognizable format. 9.The method of claim 1, wherein the step of displaying the transformedoutput comprises the further step of displaying the output to a patientin a human-recognizable format.
 10. The method of claim 1, wherein thestep of displaying the transformed output comprises the further step ofdisplaying a configurable alert for action.
 11. The method of claim 10,wherein the configurable alert comprises a graphical representation. 12.The method of claim 10, wherein the configurable alert comprises anaudible signal.
 13. A system for correlating biometric trends with arelated temporal event, comprising: a. at least one sensor coupled to animplantable medical device to automatically sense biometric data,wherein the biometric data is stored in an interactive database; b. ananalysis module to analyze the biometric data against a reference dataset to create a biometric data set; c. a correlation module to correlatethe biometric data set with a temporal event to create a correlatedoutput, wherein the temporal event is an environmental event that iscapable of causing a health state change in a patient, and wherein theenvironmental event is selected from a group of events consisting of: achange in temperature, a change in atmospheric pressure, a change inhumidity, a change in stress, a change in patient medication, a changein patient diet, and a change in patient emotional state; d. anelectronic transmission module to transmit the output to at least onecommunications device in communication with an interactivecommunications network; e. a transformation module to transform theoutput to a human-recognizable format; and f. a display module todisplay the transformed output, wherein the transformed output comprisesthe biometric data set displayed with the corresponding temporal event.14. The system of claim 13, wherein the system comprises an implantablemedical device.
 15. The system of claim 14, wherein the device isconfigured to deliver therapy to a patient.
 16. The system of claim 13,wherein the network further comprises: a. sensors in communication withthe interactive communications network, wherein at least one of thesensors is implanted within a patient; b. a host, in communication withthe sensors via the interactive communications network, the hostcomprising at least one interactive database and an analysis module,wherein the database temporally stores data from the sensors and medicalrecords of a patient, and the analysis module reports an identificationof a state of patient health based on information stored in thedatabase; and c. a delivery module that communicates a state of patienthealth via the communications network for examination.
 17. The system ofclaim 13, wherein the interactive database is a plurality of interactivedatabases.
 18. The system of claim 17, wherein the databases comprise abiometric database, a stored patient data database and an environmentaldatabase.
 19. The system of claim 17, wherein the databases comprise abiometric database, a historical/stored patient database, anenvironmental database and a patient population database.
 20. The systemof claim 17, wherein the databases comprise a biometric database, ahistorical/stored patient data database, an environmental database, apatient population database and a medical practice database.
 21. Thesystem of claim 20, wherein the medical practice database comprisesclinically derived algorithms.
 22. The system of claim 13, wherein atleast one of the sensors is a device external to a patient.
 23. Thesystem of claim 13, wherein at least one of the sensors recordsenvironmental data that is stored in the database.
 24. The system ofclaim 13, wherein the database stores historical data from a populationof patients.
 25. The system of claim 13, further comprising a diagnosticmodule for diagnosing the performance of a sensor and the communicationsnetwork.
 26. The system of claim 13, wherein the communication networkuniquely identifies the source of the communication.
 27. The system ofclaim 13, wherein the state of patient health is based on rules ofpracticing medicine.
 28. The system of claim 13, wherein the state ofpatient health is revised based on monitoring the success of previouspredictive diagnoses.
 29. The system of claim 13, wherein the analysismodule uses clinically derived algorithms to analyze biometric data. 30.The system of claim 13, wherein the display module displays aconfigurable alert for action.
 31. The system of claim 30, wherein theconfigurable alert for action is a graphical representation of thecorrelated biometric data and temporal event.
 32. The system of claim30, wherein the configurable alert for action is an audible signal. 33.The system of claim 15, wherein the sensors direct the device to delivertherapy to a patient in response to the state of patient health.
 34. Asystem for correlating biometric trends with a related temporal event,comprising: a. at least one sensor coupled to an implantable medicaldevice to automatically sense biometric data, wherein the biometric datais stored in a plurality of interactive databases comprising a biometricdatabase, a historical/stored patient data database, an environmentaldatabase, a patient population database, and a medical practicedatabase; b. an analysis module to analyze the biometric data against areference data set to create a biometric data set; c. a correlationmodule to correlate the biometric data set with a temporal event tocreate a correlated output, wherein the temporal event is anenvironmental event that is capable of causing a health state change ina patient, and wherein the environmental event is selected from a groupof events consisting of: a change in temperature, a change inatmospheric pressure, a change in humidity, a change in stress, a changein patient medication, a change in patient diet, and a change in patientemotional state; d. an electronic transmission module to transmit theoutput to at least one communications device in communication with aninteractive communications network; e. a transformation module totransform the output to a human-recognizable format; and f. a displaymodule to display the transformed output, wherein the transformed outputcomprises the biometric data set displayed with the correspondingtemporal event.
 35. The system of claim 34, wherein the system comprisesan implantable medical device.
 36. The system of claim 35, wherein thedevice is configured to deliver therapy to a patient.
 37. The system ofclaim 34, wherein the network further comprises: a. sensors incommunication with the interactive communications network, wherein atleast one of the sensors is implanted within a patient; b. a host, incommunication with the sensors via the interactive communicationsnetwork, the host comprising at least one interactive database and ananalysis module, wherein the database temporally stores data from thesensors and medical records of a patient, and the analysis modulereports an identification of a state of patient health based oninformation stored in the database; and c. a delivery module thatcommunicates a state of patient health via the communications networkfor examination.
 38. The system of claim 34, wherein at least one of thesensors is a device external to a patient.
 39. The system of claim 34,wherein at least one of the sensors records environmental data that isstored in the database.
 40. The system of claim 34, wherein the databasestores historical data from a population of patients.
 41. The system ofclaim 34, further comprising a diagnostic module for diagnosing theperformance of a sensor and the communications network.
 42. The systemof claim 34, wherein the communication network uniquely identifies thesource of the communication.
 43. The system of claim 34, wherein thestate of patient health is revised based on monitoring the success ofprevious predictive diagnoses.
 44. The system of claim 34, wherein thedisplay module displays a configurable alert for action.
 45. The systemof claim 44, wherein the configurable alert for action is a graphicalrepresentation of the correlated biometric data and temporal event. 46.The system of claim 44, wherein the configurable alert for action is anaudible signal.
 47. The system of claim 36, wherein the sensors directthe device to deliver therapy to a patient in response to the state ofpatient health.
 48. A method comprising: sensing biometric data using animplanted medical device; electronically transmitting the biometric datato a database; determining a correlation between the biometric data anda temporal event, wherein the temporal event is selected from a group ofevents consisting of: a change in temperature, a change in atmosphericpressure, a change in humidity, a change in stress, a change in patientmedication, a change in patient diet, and a change in patient emotionalstate; and displaying the biometric data and the correlated temporalevent in a formatted output.
 49. The method of claim 1, wherein theenvironmental event comprises a change in temperature.
 50. The method ofclaim 1, wherein the environmental event comprises a change inatmospheric pressure.
 51. The method of claim 1, wherein theenvironmental event comprises a change in humidity.
 52. The method ofclaim 1, wherein the environmental event comprises a change in stress.53. The method of claim 1, wherein the environmental event comprises achange in patient medication.
 54. The method of claim 1, wherein theenvironmental event comprises a change in patient diet.
 55. The methodof claim 1, wherein the environmental event comprises a change inpatient emotional state.
 56. The system of claim 13, wherein theenvironmental event comprises a change in temperature.
 57. The system ofclaim 13, wherein the environmental event comprises a change inatmospheric pressure.
 58. The system of claim 13, wherein theenvironmental event comprises a change in humidity.
 59. The system ofclaim 13, wherein the environmental event comprises a change in stress.60. The system of claim 13, wherein the environmental event comprises achange in patient medication.
 61. The system of claim 13, wherein theenvironmental event comprises a change in patient diet.
 62. The systemof claim 13, wherein the environmental event comprises a change inpatient emotional state.